Wireless room temperature universal control system

ABSTRACT

The embodiments disclose a method including integrating a wireless room temperature universal control system with features including a feature for setting automated temperature settings on a room temperature control thermostat in a room, operating at least one automated room occupancy detector feature for determining occupancy in the room, wherein the occupancy detector includes detecting body heat, detecting and receiving and transmitting sounds, detecting motion and receiving and transmitting live and recorded video signal, and using a mobile device wireless monitor and temperature control application interface to remotely manage the operations of the wireless room temperature universal control system and interactively communicating with room occupants, using an encrypted unique identification and authorization code communicated through a wireless room temperature universal control system server and a mobile device manager gateway device to activate and operate the wireless room temperature universal control system and other third party control devices.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is based on U.S. Provisional Patent Application Ser.No. 62/088,628 filed Dec. 7, 2014, entitled “WIRELESS ROOM TEMPERATUREUNIVERSAL CONTROL SYSTEM”, by Justin Heller, et al.

BACKGROUND

Temperature control of a room is difficult when the user or owner isaway from the location. Temperatures can rise or fall without the userknowledge or ability to adjust the temperature.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a block diagram of an overview of a wireless roomtemperature universal control system of one embodiment.

FIG. 2 shows a block diagram of an overview flow chart of a wirelessroom temperature universal control system of one embodiment.

FIG. 3 shows for illustrative purposes only an example of a wirelessroom temperature control for an infant room of one embodiment.

FIG. 4 shows for illustrative purposes only an example of an automatedwireless room temperature control for a home planned event of oneembodiment.

FIG. 5 shows for illustrative purposes only an example of an automatedwireless room temperature control for a commercial planned event of oneembodiment.

FIG. 6 shows for illustrative purposes only an example of an automatedwireless room temperature control all-in-one apparatus of oneembodiment.

FIG. 7A shows for illustrative purposes only an example of an automatedwireless room temperature control decorative cover of one embodiment.

FIG. 7B shows for illustrative purposes only an example of an automatedwireless room temperature control decorative cover transparent windowsof one embodiment.

FIG. 7C shows for illustrative purposes only an example of an automatedwireless room temperature control decorative cover installation of oneembodiment.

FIG. 8 shows for illustrative purposes only an example of an automatedwireless room temperature baby cam of one embodiment.

FIG. 9A shows for illustrative purposes only an example of a roomventilation register of one embodiment.

FIG. 9B shows for illustrative purposes only an example of roomventilation register louver positions of one embodiment.

FIG. 9C shows for illustrative purposes only an example of an automatedwireless room temperature control room ventilation register of oneembodiment.

FIG. 10 shows for illustrative purposes only an example of an automateduser predetermined room temperature control system operation of oneembodiment.

FIG. 11 shows a block diagram of an overview flow chart of an automateduser predetermined room temperature control system of one embodiment.

FIG. 12 shows for illustrative purposes only two examples of a roomtemperature control system mounting plate module of one embodiment.

FIG. 13 shows for illustrative purposes only an example of a mountingplate module of one embodiment.

FIG. 14A shows for illustrative purposes only an example of a mountingplate module elements front view of one embodiment.

FIG. 14B shows for illustrative purposes only an example of a mountingplate module elements rear view of one embodiment.

FIG. 15 shows for illustrative purposes only an example of a mountingplate module assembly view of one embodiment.

FIG. 16A shows for illustrative purposes only an example of a poweredmounting plate module assembly view of one embodiment.

FIG. 16B shows for illustrative purposes only an example of a poweredmounting plate module internal conductors of one embodiment.

FIG. 17 shows for illustrative purposes only an example of poweredmounting plate module connections of one embodiment.

FIG. 18 shows for illustrative purposes only an example of a wirelessroom temperature universal control system features remote applicationinterface of one embodiment.

FIG. 19 shows for illustrative purposes only an example of a wirelessroom temperature universal control system real-time imaging capture ofone embodiment.

FIG. 20 shows for illustrative purposes only an example of a wirelesstablet remote application interface features of one embodiment.

FIG. 21 shows for illustrative purposes only an example of a wirelessGoogle glasses remote application interface of one embodiment.

FIG. 22 shows for illustrative purposes only an example of a wirelesssmart phone touch screen remote application interface of one embodiment.

FIG. 23 shows for illustrative purposes only an example of a universalroom ventilation register adapter assembly of one embodiment.

FIG. 24 shows for illustrative purposes only an example of a universalroom ventilation register adapter of one embodiment.

FIG. 25 shows for illustrative purposes only an example of GPS proximityautomated wireless room temperature control activation of oneembodiment.

FIG. 26 shows a block diagram of an overview flow chart of a wirelessroom temperature universal control system gateway server and device ofone embodiment.

DETAILED DESCRIPTION OF THE INVENTION

In a following description, reference is made to the accompanyingdrawings, which form a part hereof, and in which is shown by way ofillustration a specific example in which the invention may be practiced.It is to be understood that other embodiments may be utilized andstructural changes may be made without departing from the scope of thepresent invention.

SUMMARY OF THE INVENTION

The present invention is method and apparatus to operate a wireless roomtemperature universal control system. The wireless room temperatureuniversal control system may be installed in individual rooms andoperated through in-room controls and remotely using a WI-FI connectedwireless communication devices. The wireless room temperature universalcontrol system may be installed and operated universally in any room,space or enclosed area. The operation of the wireless room temperatureuniversal control system includes an overall operation of multiple roomswhere each room may be controlled individually of one embodiment.

The individual apparatus making up the wireless room temperatureuniversal control system may be hard wired to a power supply and/orbattery powered devices. The wireless room temperature universal controlsystem includes occupancy detection to determine whether a room is inuse or not to assist a user in predetermining a desired temperaturesetting. Temperature settings and times of regulated temperature controlare automated to allow a user to preset a desired room temperature for afuture event. Remote operations using a mobile communication devicewireless monitor and temperature control application interface relievesa user from having to be physically present in a room to adjusttemperatures and also monitor temperatures in a room during times ofroom occupancy use of one embodiment.

WI-FI controlled heating and cooling system supply ventilation ventswhere the controls open and close the vent delivery of heated or cooledair are used to regulate the temperature by adjusting the supplydelivery of heated or cooled air. The apparatus to operate a wirelessroom temperature universal control system may be integrated with otherequipment for example a baby monitor to feedback room temperature withsurveillance operations. Another example is an existing HVAC centralsystem that can be configured for a zoned system operation on a room byroom basis with integration of the wireless room temperature universalcontrol system apparatus. The room by room temperature control using thewireless room temperature universal control system can reduce energyuse, save money and user time by allowing remote operations of thetemperature controls. Large rooms may include more than one set ofapparatus to operate a wireless room temperature universal controlsystem to provide full coverage over the large room area for example ameeting room, an auditorium or other large room facility of oneembodiment.

General Overview:

It should be noted that the descriptions that follow, for example, interms of a wireless room temperature universal control system isdescribed for illustrative purposes and the underlying system can applyto any number and multiple types of wireless devices. In one embodimentof the present invention, the wireless room temperature universalcontrol system can be configured using wireless digital thermostats. Thewireless room temperature universal control system can be configured toinclude wireless mobile communication devices and can be configured toinclude room space occupancy detection devices using the presentinvention.

FIG. 1 shows a block diagram of an overview of a wireless roomtemperature universal control system of one embodiment. FIG. 1 shows atleast one room temperature control thermostat 100 installed in a roomand a feature included in a wireless room temperature universal controlsystem 110. The wireless room temperature universal control system 110includes the room temperature control thermostat 100 with automatedtemperature settings 130, an automated temperature monitor 120 andautomated room occupancy detectors 140. The automated room occupancydetectors 140 includes at least one body heat detector 142, motiondetector 144, sound detector 146 and live and recorded video signaldevice 148.

The at least one room temperature control thermostat 100 includes anautomated mold detector 150, automated humidity detector 160 andautomated window covering opening and closing device 170. The wirelessroom temperature universal control system 110 includes a mobilecommunication device wireless monitor and temperature controlapplication interface 180 to allow a user to set thermostat temperaturesettings while away from the room location of one embodiment.

DETAILED DESCRIPTION

FIG. 2 shows a block diagram of an overview flow chart of a wirelessroom temperature universal control system of one embodiment. FIG. 2shows operating a room temperature control thermostat 200 afterintegrating a wireless room temperature universal control system 210into the operation. The integrated wireless room temperature universalcontrol system allows setting automated temperature settings 230 using awireless communication device and not being in proximity to the roomtemperature control thermostat 200 of one embodiment.

The integrated wireless room temperature universal control system allowsoperating automated temperature monitor 220 using mobile device wirelessmonitor and temperature control application interface 250. The mobiledevice wireless monitor and temperature control application interface250 is activated using a mobile communication device wireless monitorand temperature control application 305 downloaded into a user mobilecommunication device, a wireless room temperature universal controlsystem server 2630 and a mobile device manager gateway device 2610. Themobile device wireless monitor and temperature control applicationinterface 250 includes activating upon receiving a signal including aunique wireless room temperature universal control system serveridentification and authorization code embedded into a processor 2602 ina wireless room temperature universal control system device 2600.

The integrated wireless room temperature universal control systemincludes operating automated room occupancy detector 240 configured toinclude detecting body heat 242, detecting and sending sounds 244,detecting motion 246 and receiving and transmitting live and recordedvideo signal 248 to determine whether a room is occupied or not of oneembodiment.

Using mobile device wireless monitor and temperature control applicationinterface 250 is configured for setting a user predetermined temperaturewhen room unoccupied 260, setting a user predetermined temperature whenroom occupied 270 and setting a user set time to begin predeterminedtemperature regulation 280. Integrating a wireless room temperatureuniversal control system 210 including using mobile device wirelessmonitor and temperature control application interface 250 is configuredfor transmitting user alerts for room temperature and occupancy 290. Thealerts for room temperature and occupancy allow a user to be aware ofthe current situation in the room of concern to determine thetemperature desired in the room of one embodiment.

Infant Room Remote Temperature Control:

FIG. 3 shows for illustrative purposes only an example of a wirelessroom temperature control for an infant room of one embodiment. FIG. 3shows an infant room #3 300 including the room #3 entrance 302. Insideinfant room #3 300 is an infant bassinet 310. A wireless roomtemperature universal control system installed in infant room #3 300includes a wireless digital thermostat 320, motion detector 322,microphone sound detector 324, speaker 326, heat detector 328, videocamera 330, a and digital display screen 332 and a wireless digitalinternet interface device 340 for example a wireless router of oneembodiment.

The wireless room temperature universal control system includes awireless room temperature universal control system digital application305 installed on a user smart phone communication device 350. Thewireless room temperature universal control system digital application305 includes a digital thermostat interface 352. The wireless roomtemperature universal control system digital application 305 transmits auser occupancy alert “room #3—occupied” 354 according to the automatedroom occupancy detector. The user occupancy alert displays a detectedoccupant symbol “star” 358 on a room #3 image 356 to indicate the roomis occupied. The video camera image of infant occupant 362 is displayedon the user smart phone communication device 350. The heat detectedtemperature 98.6° 36D indicates a current body temperature of the infantoccupant.

Although in this example a caretaker for the infant is available, thewireless room temperature universal control system digital application305 plays sounds from the microphone sound detector 324 for example theinfant crying. The speaker 326 allows the user to record voice messageto broadcast 370 and play voice message in room #3 372 to calm theinfant with a familiar voice. The user smart phone communication device350 displays a predetermined temp start time: 3:30 am 390 set by theuser using the wireless room temperature universal control systemdigital application 305 and a predetermined temp: 68° 392 set at thesame time. The wireless room temperature universal control systemdigital application 305 displays a current time and date 380. Thewireless room temperature universal control system digital application305 automatically queries from a local or national weather service acurrent outside temperature 378 and displays the temperature and partlycloudy current weather report 376 of one embodiment.

The automated window covering opening and closing device 170 isactivated when the user is raising or lowing the temperature in a room.When for example in a room where the shades, blinds or other type ofwindow covering is open the afternoon sun may heat the room through thewindow glass of a window, the wireless room temperature universalcontrol system 110 will automatically close the window covering toreduce the heating by the sun. The wireless room temperature universalcontrol system 110 will broadcast a wireless signal using a shortdistance transmitter that indicates the room temperature is above orbelow the room temperature setting. The automated window coveringopening and closing device 170 will receive a signal transmission on asignal receiver from the wireless room temperature universal controlsystem 110 for example indicating the room temperature is above the roomtemperature setting, this will automatically activate a draw stringmotorized apparatus to move the draw string in a direction which willclose the window covering of one embodiment.

When for example in a room where the shades, blinds or other type ofwindow covering is closed, the wireless room temperature universalcontrol system 110 may detect the room temperature is below thetemperature setting. The automated window covering opening and closingdevice 170 will receive a signal transmission from the wireless roomtemperature universal control system 110 indicating the room temperatureis below the room temperature setting, this will automatically activatethe draw string motorized apparatus to move the draw string in adirection which will open the window covering to allow the afternoon sunto heat the room through the window glass of a window of one embodiment.

The automated humidity detector 160 will record the ambient humidity ina room over a continuous period of hours on a digital memory media andcalculate an average humidity level using a digital processor 2602. Whenfor example the automated humidity detector 160 detects a rapid increasein the humidity level it send an alert the user of the rising humiditylevel on a signal using the wireless digital internet interface device340. The rapidly rising humidity level may be an indication that forexample a water pipe leak, an overflowing toilet, rain entering the roomthrough an open window is occurring. The user upon receiving the alerton for example the a user smart phone communication device 350 cancommunicate with someone in the home or who can access the home toinvestigate and for example shut off the water supply to the pipes,clear the blockage in the overflowing toilet or close the open window ofone embodiment.

The automated mold detector 150 includes an air chamber to sample roomair and using a biosensor detect whether airborne mold spores arepresent in the air sample. The air in the air chamber is changing fromthe passage of air by the movement of air in the room for example fromventilators, fans or central cooling and heating systems. When theautomated mold detector 150 detects the presence of mold spores ittransmits a signal alert using the wireless digital internet interfacedevice 340 to the user smart phone communication device 350. The usermay then communicate with a maintenance person or company to determinethe source of the mold spores and take appropriate action to eradicatethe mold of one embodiment.

Automated Temperature Control for a Home Planned Event:

FIG. 4 shows for illustrative purposes only an example of an automatedwireless room temperature control for a home planned event of oneembodiment. FIG. 4 shows the wireless room temperature universal controlsystem 110 installed in major rooms in a house. A living room wirelessroom temperature universal control system 420 includes a living roomwireless digital thermostat 410, motion detector 322, microphone sounddetector 324, speaker 326, heat detector 328 and video camera 330. Ahouse floor plan 400 shows a living room 401, kitchen 402, bedroom #1403, bedroom #2 404 and bedroom #3 405 as major rooms in the house ofone embodiment.

The wireless room temperature universal control system 110 includes awireless digital internet interface device 340 for example a wirelessrouter used to communicate with for example a user iPad communicationdevice 430 or tablet. A multi-room whole house wireless room temperatureuniversal control system digital application 480 is installed on theuser iPad communication device 430 or tablet. The A multi-room wholehouse wireless room temperature universal control system digitalapplication 480 displays a current time, date, day and outsidetemperature 442 and downloaded sunny current weather report 440 of oneembodiment.

The house floor plan 400 is displayed and a user finger is tapped on atouch screen of living room area 450. The living room 401 living roomdigital thermostat interface 466 is displayed to allow the user tocontrol the temperature for an upcoming event in the living room. Theupcoming event is a planned event party time: 7:30 pm 460. The useroperates the application thermostat interface to set temp start time:4:30 pm 462 using time set up and down arrows. The user then uses tempset up and down arrows to set temp: 70° 464 for the upcoming event whileaway from the house. A video camera image of living room 470 shows theuser the living room is unoccupied at this time of one embodiment.

Once the party is underway the user can use the multi-room whole housewireless room temperature universal control system digital application480 to for example check the temperature in the living room afterfilling with people. Additionally the user may use the heat detector 328and video camera 330 image displays to determine whether the guests inthe living room are comfortable. For example if the room temperature isabove the predetermined set temperature and the guest appear to beuncomfortable the user may reset and lower the thermostat temperature tomake the guest more comfortable without have to approach and operatehands-on the thermostat of one embodiment.

Commercial Office High-Rise Building:

FIG. 5 shows for illustrative purposes only an example of an automatedwireless room temperature control for a commercial planned event of oneembodiment. FIG. 5 shows an illustration of a commercial officehigh-rise building 500 cut-away showing the floors and suites on eachfloor. In this example the user is a commercial property manager who hasan appointment planned to show suite #6B 510 to a prospective tenant.The entire building has a wireless room temperature universal controlsystem installed in each suite including a suite #6B wireless roomtemperature universal control system 520. The suite #6B wireless roomtemperature universal control system 520 includes a suite #6B wirelessdigital thermostat 530, motion detector 322, microphone sound detector324, speaker 326, heat detector 328 and video camera 330 of oneembodiment.

Each suite wireless room temperature universal control system is linkedto the wireless digital internet interface device 340 for example awireless router located in a building control room 540. The commercialproperty manager has a smart phone communication device 350 on which isinstalled a commercial wireless room temperature universal controlsystem digital application 505. The commercial wireless room temperatureuniversal control system digital application 505 displays a commercialoffice high-rise building floor level suite plan image 560 of oneembodiment.

The wireless room temperature universal control system installed in eachsuite transmits and activates a display of an office occupancy detectedoccupant symbol “star” 570 on the smart phone communication device 350indicated which suites are occupied. A suite #6B plan image 512 withouta star indicated the suite is unoccupied. A suite #6B video camera image580 displayed confirms a suite #6B—unoccupied 550 status. The commercialproperty manager using the commercial wireless room temperatureuniversal control system digital application 505 enters the 2:30 pmappointment 590. The commercial property manager uses the applicationthermostat interface to set a temp start time: 1:30 pm 591 and temp endtime: 4:00 pm 592 for the appointment date: Sep. 11, 2014 Thurs. 593.The commercial property manager uses the application thermostatinterface to set a predetermined temp: 70° 554 which the managers feelswill be more comfortable than the current temp: 78° 556 of oneembodiment.

The commercial property manager using the commercial wireless roomtemperature universal control system digital application 505 to controlthe temperature without having to visit the building in person, savingtime and travel expense. The commercial property manager can thendemonstrate to the prospective tenant how they too can enjoy the samelevel of remote control of the office environment and energy and timesavings using the wireless room temperature universal control system andapplication for Suite #6B of one embodiment.

All-in-One Apparatus:

FIG. 6 shows for illustrative purposes only an example of an automatedwireless room temperature control all-in-one apparatus of oneembodiment. FIG. 6 shows wireless room temperature universal controlsystem components 600 including the motion detector 322, microphonesound detector 324, speaker 326, heat detector 328, a room wirelessdigital thermostat 610, and video camera 330. Also shown is the wirelessdigital internet interface device 340. FIG. 6 shows an all-in-one roomwireless room temperature universal control system 620 wherein theseparate components of the wireless room temperature universal controlsystem components 600 are included in a common housing of oneembodiment.

Decorative Cover:

FIG. 7A shows for illustrative purposes only an example of an automatedwireless room temperature control decorative cover of one embodiment.FIG. 7A shows a decorative cover 700 that may be fitted over the frontof the all-in-one room wireless room temperature universal controlsystem 620 using the decorative cover coupling 710 of one embodiment.The decorative cover 700 may be any design that includes various shapesincluding plants, animals, cartoon characters and other designs that auser may wish to camouflage the all-in-one room wireless roomtemperature universal control system 620 and match a decorative theme ofa specific room. A custom decorative cover 700 may be made with aphotograph image of a user's choosing, for example a child, group ofpeople and a particular event or image of one embodiment.

FIG. 7B shows for illustrative purposes only an example of an automatedwireless room temperature control decorative cover transparent windowsof one embodiment. FIG. 7B shows the back side of the decorative cover700 and decorative cover coupling 710 which include transparent windows720 allowing operation of for example a camera, speaker, and microphonewhen the decorative cover 700 has been fitted onto the front of theall-in-one room wireless room temperature universal control system 620of one embodiment.

FIG. 7C shows for illustrative purposes only an example of an automatedwireless room temperature control decorative cover installation of oneembodiment. FIG. 7C shows a decorative cover installation 730 onto thefront of the all-in-one room wireless room temperature universal controlsystem 620 of one embodiment.

Wireless Room Temperature Baby Cam:

FIG. 8 shows for illustrative purposes only an example of an automatedwireless room temperature baby cam of one embodiment. FIG. 8 shows theall-in-one room wireless room temperature universal control system 620with the decorative cover installation 730 mounted on an adjustablemounting bracket 810. The adjustable mounting bracket 810 is coupled toan infant crib 800. The all-in-one room wireless room temperatureuniversal control system 620 is used in this example for a baby cam toenable a user to monitor the infant including the temperature in thebaby room to prevent the infant from being overheated. The user mayadjust the temperature in the baby room remotely using a wireless mobilecommunication device of one embodiment.

The user may also communicate with the infant, for example if the infantis fussy the user for example the infants' mother may speak through theall-in-one room wireless room temperature universal control system 620speaker in a voice familiar to the infant and calm the infant. Theall-in-one room wireless room temperature universal control system 620may include an infrared camera with which the user may detect atemperature reading of the infant, detect a wet diaper and otherconditions that may need immediate attention and communicate thatinformation to for example a care taker or nanny in the room using themicrophone-speaker communication systems of the all-in-one room wirelessroom temperature universal control system 620 of one embodiment.

Room Ventilation Register:

FIG. 9A shows for illustrative purposes only an example of a roomventilation register of one embodiment. FIG. 9A shows a wall mountedwireless adjustable ventilation system register 900. Heated and cooledair is blown through the register by for example a central airconditioning system or heat pump system into a room to heat or cool theambient temperature in the room. The temperature setting of a centralair conditioning system or heat pump system is generally set on a singlethermostat for the whole house or commercial space that would notdiscriminate on a room by room basis. The non-discriminatory temperaturesingle temperature setting may lead to wide temperature variancesbetween rooms, for example room without solar exposure may get verycold, while rooms exposed to significant solar exposure may be very hotas the single thermostat will not be monitoring the temperature in eachroom only the immediate area of the thermostat.

FIG. 9B shows for illustrative purposes only an example of roomventilation register louver positions of one embodiment. FIG. 9B showsvarious positions of louvers of an adjustable ventilation systemregister. Typical manual registers have a manual adjustment lever to putthe louvers in a closed position 910, a partially open position 920 anda fully open position 930. A user not in the room of the typical manualregister has no way to manually adjust the louvers to control the amountof cooled or heated air entering the room. In an example the user knowsthis room gets significant afternoon solar exposure and heats up abovethe central thermostat temperature setting and has plans for a meetingin the room for late afternoon. The user can close or partially closeregisters in adjacent rooms and fully open the register in the meetingroom using the mobile communication device wireless monitor andtemperature control application interface 180 of FIG. 1 to adjust thevarious wall mounted wireless adjustable ventilation system register 900louver positions and direct more cooled air into the meeting room tolower the ambient temperature in advance of the meeting, even though heis not physically in the room in one embodiment.

FIG. 9C shows for illustrative purposes only an example of an automatedwireless room temperature control room ventilation register of oneembodiment. FIG. 9C shows the wall mounted wireless adjustableventilation system register 900 including a housing 905. Viewing theback side 940 of the wall mounted wireless adjustable ventilation systemregister 900 one can see the louvers in a fully open position 930. Apropeller 950 is rotated by the air flowing into the room from the airconditioning system duct system. The rotating propeller 950 drives agenerator 955 that recharges batteries in a holder 960.

The rechargeable batteries power a digital memory device 968 throughconductors 964. A user temperature setting stored on the digital memorydevice 968 is used to automatically adjust the louver position toregulate the room temperature using the room temperature transmittedfrom the all-in-one room wireless room temperature universal controlsystem 620 of FIG. 6. The louver positioning is adjusted using asolenoid motor 970 powered from the rechargeable batteries and coupledto the louvers with an adjustment rod 974 and louver rod connectors 978.The user may override the automated settings and remotely adjust thelouver positioning and reset the temperature. The digital memory device968 is rewritable and can be accessed using the mobile communicationdevice wireless monitor and temperature control application interface180 of FIG. 1. A user may set a temperature setting and louver positionseparately of one embodiment.

Blue-Tooth Wireless Activated Control System:

FIG. 10 shows for illustrative purposes only an example of an automateduser predetermined room temperature control system operation of oneembodiment. FIG. 10 shows a user 1000 wearing a blue-tooth wirelessmobile device 1010 entering a room. The mobile communication devicewireless monitor and temperature control application interface 180 ofFIG. 1 broadcasts a signal 1020 in the room which is detected by theall-in-one room wireless room temperature universal control system 620set on the table. The all-in-one room wireless room temperatureuniversal control system 620 queries a database of users to determine auser's predetermined and set temperature setting. The all-in-one roomwireless room temperature universal control system 620 transmits theuser's predetermined and set temperature setting to the wall mountedwireless adjustable ventilation system register 900 to automaticallyadjust the louver positions to regulate the room temperature to theuser's predetermined and set temperature setting of one embodiment.

Predetermined Room Temperature Control System:

FIG. 11 shows a block diagram of an overview flow chart of an automateduser predetermined room temperature control system of one embodiment.FIG. 11 shows a user enters a room with a wireless mobile device 1100having a mobile device wireless monitor and temperature controlapplication interface 1110 installed on the mobile device. The wirelessmobile device 1100 broadcasts a user predetermined temperature settingwhen user occupies a room 1120. The wireless room temperature universalcontrol system 110 including the room temperature control thermostat 100receives the user predetermined temperature setting and queries a userdatabase to determine the specific user predetermined temperaturesetting. The wall mounted wireless adjustable ventilation systemregister 900 automatically adjusts louvers to raise or lower temperatureto match a user predetermined temperature 1130. The mobile devicewireless monitor and temperature control application interface 1110 canbe installed on any wireless mobile device and individual users may havediffering predetermined temperature settings. Within a group of roomsthe common users may set a priority on which users predeterminedtemperature setting has priority when multiple users occupy the sameroom of one embodiment.

Mounting Plate Module:

FIG. 12 shows for illustrative purposes only two examples of a roomtemperature control system mounting plate module of one embodiment. FIG.12 shows two examples of a mounting plate module 1210 used to mount aroom temperature control system 1200 including the all-in-one roomwireless room temperature universal control system 620. The mountingplate module 1210 is configured to include a flexible extension neck1220 and a clip-on bracket 1230. The mounting plate module 1210 used tomount a room temperature control system 1200 to various objectsincluding the infant crib 800 of FIG. 8 of one embodiment.

FIG. 13 shows for illustrative purposes only an example of a mountingplate module of one embodiment. FIG. 13 shows one embodiment of themounting plate module 1210 configured to include a Velcro attachment1300 used to attach a room temperature control system 1200, theextension neck 1220 and clip-on bracket 1230.

Mounting Plate Module Elements:

FIG. 14A shows for illustrative purposes only an example of a mountingplate module elements front view of one embodiment. FIG. 14A shows afront view of the mounting plate module 1210 including the Velcroattachment 1300, a slotted bolt pass through 1430, a washer recess 1440and a receiver 1420 used to attach the mounting plate module 1210 to acap 1410 used to tighten a ball 1400 joint attached to the flexibleextension neck 1220. The receiver 1410 cap 1410 tightening is used toadjust the friction with the ball 1400 configured to allow a user to aimand set the direction of the room temperature control system 1200 ofFIG. 12 for uses including the heat detector 328 and video camera 330 ofFIG. 3 of one embodiment.

FIG. 14B shows for illustrative purposes only an example of a mountingplate module elements rear view of one embodiment. FIG. 14B shows therear of the mounting plate module 1210, cap 1410 and ball 1400 jointattached to the flexible extension neck 1220. The rear view shows thethreaded ball 1400 joint receiver which is segmented to enable thereceiver to tighten around the ball 1400 when the cap 1410 is threadedshut. The mounting plate module 1210 is configured to includereinforcement thickening 1450 for structural strength for boltattachments of one embodiment.

Mounting Plate Module Assembly:

FIG. 15 shows for illustrative purposes only an example of a mountingplate module assembly view of one embodiment. FIG. 15 shows the mountingplate module 1210, cap 1410 and ball 1400. The ball 1400 is insertedinto the receiver 1420. The cap 1410 is threaded 1520 to the receiver1420 as the cap is attached 1520 to the receiver 1420 to set thefriction against the ball 1400 of one embodiment.

Powered Mounting Plate Module Assembly:

FIG. 16A shows for illustrative purposes only an example of a poweredmounting plate module assembly view of one embodiment. FIG. 16A showsthe mounting plate module 1210, cap 1410 and ball 1400 assembly coupledtogether. In one embodiment the mounting plate module 1210 is configuredto include a room temperature control system USB power connection 1600and a USB power supply connection 1610. The flexible extension neck 1220may be configured to include a power supply USB connector 1620, a powersupply cable 1630 and a power pack connector 1640. The power packconnector 1640 couples to a rechargeable battery flexible extension neckcontainer 1660 which couples to the power pack connector 1640 using abattery container connector 1650. Inside the rechargeable batteryflexible extension neck container 1660 at least one rechargeable battery1670 is inserted. The rechargeable batteries supply power to the roomtemperature control system 1200 of FIG. 12 through the room temperaturecontrol system USB power connection 1600 of one embodiment.

Mounting Plate Module Internal Conductors:

FIG. 16B shows for illustrative purposes only an example of a poweredmounting plate module internal conductors of one embodiment. FIG. 16Bshows the mounting plate module 1210 configured with the roomtemperature control system USB power connection 1600 and a USB powersupply connection 1610. Embedded in the body of the mounting platemodule 1210 are USB connections conductors 1680 to conduct power fromthe USB power supply connection 1610 to the room temperature controlsystem USB power connection 1600. In another embodiment a USB cable andconnection can be plugged into the USB power supply connection 1610 fromfor example a computer or external power supply to operate the roomtemperature control system 1200 of FIG. 12 of one embodiment.

Rechargeable Battery Flexible Extension Neck Container:

FIG. 17 shows for illustrative purposes only an example of poweredmounting plate module connections of one embodiment. FIG. 17 shows themounting plate module 1210, cap 1410 and ball 1400 assembly coupledtogether and attached to the all-in-one room wireless room temperatureuniversal control system 620 using bolt and nut 1700 attachments. Theall-in-one room wireless room temperature universal control system 620has attached the decorative cover 700.

The rechargeable battery flexible extension neck container 1660 filledwith a number of the rechargeable battery 1670 units and is beingconnected to the power pack connector 1640 with the battery containerconnector 1650. The power supply cable 1630 and power supply USBconnector 1620 is connected to the USB power supply connection 1610 fromthe power pack connector 1640. Power from the rechargeable batteryflexible extension neck container 1660 is conducted through the USBpower supply connection 1610 and USB connections conductors 1680 of FIG.16B to the room temperature control system USB power connection 1600.

The all-in-one room wireless room temperature universal control system620 in one embodiment is configured with an external power USB cableadapter 1730, external power USB cable 1720 and external power USBconnector 1710. The external power USB connector 1710 is plugged intothe room temperature control system USB power connection 1600 tocomplete the electrical connection to the external power supply in thisexample the rechargeable battery flexible extension neck container 1660of one embodiment.

Remote Operations Features:

Remote operations using a mobile communication device wireless monitorand temperature control application interface

FIG. 18 shows for illustrative purposes only an example of a wirelessroom temperature universal control system features remote applicationinterface of one embodiment. FIG. 18 shows an infant room 1820 where auser's infant 1800 is occupying an infant crib 1810. One embodiment ofthe all-in-one room wireless room temperature universal control system620 with the decorative cover 700 is coupled onto the infant crib 1810using a crib coupling module 1830. The all-in-one room wireless roomtemperature universal control system 620 is coupled to the mountingplate module 1210. The mounting plate module 1210 is coupled to therechargeable battery flexible extension neck container 1660 attached tothe clip-on bracket 1230 and used to secure the all-in-one room wirelessroom temperature universal control system 620 to the infant crib 1810 ofone embodiment.

Real-Time Imaging Capture:

FIG. 19 shows for illustrative purposes only an example of a wirelessroom temperature universal control system real-time imaging capture ofone embodiment. FIG. 19 shows the all-in-one room wireless roomtemperature universal control system 620 with the decorative cover 700mounted onto the infant crib 1810 in the infant room 1820. In oneembodiment the crib coupling module 1830 may be configured to include atilt and swivel module to allow a user to remotely position theall-in-one room wireless room temperature universal control system 620video camera 330 field of vision to capture a targeted area, objectand/or person for example the user's infant 1800. Positioning theall-in-one room wireless room temperature universal control system 620to a targeted area also enables the microphone sound detector 324,speaker 326, motion detector 322 and heat detector 328 to be directed tothe targeted area, object and/or person.

In this example the video camera 330 is positioned to capture videocamera field of vision real-time images of a user's infant 1900. Thewireless digital internet interface device 340 for example a wirelessrouter is used for a means for a wireless secure password protectedbroadcast of video camera real-time images of user's infant 1910. Thewireless digital internet interface device 340 also transmits atemperature detected using the heat detector 328. The wireless digitalinternet interface device 340 also transmits audible sounds detectedusing the microphone sound detector 324 from the targeted area, objectand/or person including the user's infant 1800 of one embodiment.

Tablet Remote Application Features:

FIG. 20 shows for illustrative purposes only an example of a wirelesstablet remote application interface features of one embodiment. FIG. 20shows the commercial office high-rise building 500 cut-away showing thefloors and suites on each floor including an office of the user 2020.The user in the office 2030 is in this example using for example awireless digital communication device for example a tablet 2040including an iPad with the a mobile communication device wirelessmonitor and temperature control application interface 180 of FIG. 1installed to invoke remote monitoring using the all-in-one room wirelessroom temperature universal control system 620. The user logs into themobile communication device wireless monitor and temperature controlapplication interface 180 of FIG. 1 with a user predetermined passwordusing a wireless digital internet connection of one embodiment.

The user is able to view remote monitoring images 2050 for example thevideo camera field of vision real-time images of a user's infant 1900.Simultaneously the user is able to view the current temperature, roomtemp 76°; of the infant room 1820 detected using the heat detector 328of FIG. 3. The user may wish to adjust the temperature of the infantroom 1820 lower. The user using the remote monitoring features of themobile communication device wireless monitor and temperature controlapplication interface 180 of FIG. 1 may use the temp set up and downarrows to set temp: 70° 464 thereby lowering the temperature in tieinfant room 1820 of one embodiment.

In one embodiment of the mobile communication device wireless monitorand temperature control application interface 180 of FIG. 1 an exampleof a user interaction may include using the remote monitoring featuresfor communicating with in this example the user's infant 1800. Themicrophone sound detector 324 of FIG. 3 may detect sounds that the userdetermines indicate the infant is cranky. The user may desire to calmthe infant by communicating with him/her in their own voice which willbe familiar to the user's infant 1800. The user may speak into themicrophone of the iPad communication device or tablet wherein theirvoice and verbal message will be transmitted to the all-in-one roomwireless room temperature universal control system 620 speaker 326 ofFIG. 3. The user's infant 1800 will be able to hear the sound of theuser's voice and verbal message for example “Your Mommy's little sweetiepie, Yes you are” 2010. The user will be able to determine using thevideo camera field of vision real-time images of a user's infant 1900and infant verbal response for example “Goo Gah . . . ” 2000 detectedusing the microphone sound detector 324 of FIG. 3 when the infant hascalmed down of one embodiment.

In another example the user may receive sounds of a user pet for examplea dog that is barking loudly and persistently possibly creating anuisance to for example neighbors. The user may decide to blow a dogwhistle with sounds inaudible to humans wherein the dog whistle soundwill be transmitted through the microphone of the tablet 2040 to theall-in-one room wireless room temperature universal control system 620speaker 326 of FIG. 3 and heard by the dog as a signal from the userused to train the dog to stop barking of one embodiment.

In yet another example the at least one body heat detector 142 of FIG. 1may show the user's infant 1800 is running a high body temperature forexample 101°. The user may determine to communicate with a care taker,the infant's pediatrician, and/or first responders to attend to theinfant who may be in distress. The user will be able to continuemonitoring this situation while for example a care taker attends to theinfant's high temperature condition to determine directly how the infantis responding and take whatever follow-up actions are determined of oneembodiment.

As shown in one embodiment of the remote monitoring features of thewireless room temperature universal control system 110 of FIG. 1including the all-in-one room wireless room temperature universalcontrol system 620 allows the user to maintain an interactive contactwith a targeted area, object and/or person. The user may makeadjustments in the targeted area environment, detect the currentconditions of environment and cause for example a change in temperature.The user will be able to assess the current situation in a room and itsoccupant(s) and interactively communicate, detect conditions that mayalert the user to determine whether to communicate with for example acare taker to intercede and attend to corrective actions of oneembodiment.

The remote monitoring features of the wireless room temperatureuniversal control system 110 of FIG. 1 may allow a user to determine anemergency conditions warrants communicating and directing firstresponders to the targeted area for assistance for example a fire, aninfant in distress, a break-in or robbery in progress. The remotemonitoring features of the wireless room temperature universal controlsystem 110 of FIG. 1 provide the user with a means of directly beingaware of and determining current conditions for a targeted area forexample a room, interactively adjusting conditions and situations andseeking assistance when determined while the user is not physicallypresent of one embodiment.

Hands-Free Remote Application Features:

FIG. 21 shows for illustrative purposes only an example of a wirelessGoogle glasses remote application interface of one embodiment. FIG. 21shows a wireless monitor and temperature control application interfaceconfigured for use with hands-free devices including Google Glasses2160. The application interface features are accessible to a user withwireless hands-free devices including Google Glasses 2180. Wirelessmonitor and temperature control application interface hands-freefeatures 2100 include for example audio readings of detected baby'stemperature, detected room temperature, detected room occupancy 2120where a computer processor in the all-in-one apparatus generatesverbalizations of the current readings of the detected conditions in aroom of one embodiment.

Wireless monitor and temperature control application interfacehands-free features 2100 include for example user voice activatedcommands. The user can use voice commands to login into the secureapplication. The user can use voice commands to operate user voiceactivated temperature control settings 2130 to for example “lower roomtemp to 70 degrees” 2140 of one embodiment.

Wireless monitor and temperature control application interfacehands-free features 2100 include for example wireless transmitted videocamera images and communications. These features allow a user to viewreal-time images of for example the user's baby in a baby's room withthe automated wireless room temperature control all-in-one apparatuscoupled to a baby crib. The images of the baby are viewed on theeye-piece screen of the Google Glasses 2160. The user can communicatewith the baby using the remote operation of the microphone and speakerof the all-in-one apparatus by speaking into the microphone of theGoogle Glasses 2160 for example “you're mommy's little sweetie pie, yesyou are” 2010 and hearing in the ear piece of the Google Glasses 2160the baby's reply “goo gah . . . ” 2000 of one embodiment.

Touch Screen Remote Application Controls:

FIG. 22 shows for illustrative purposes only an example of a wirelesstouch screen remote application interface of one embodiment. FIG. 22shows wireless touch screen remote application interface features 2200including for example for use with a smart phone 2240. Wireless touchscreen remote application interface features 2200 include for examplevisual and audio features where a user can view images of andcommunicate with occupants in a room 2210 using for example a smartphone 2240. Wireless touch screen remote application interface features2200 include for example remote control features where a user sets a newtemperature setting using touch screen remote monitoring controls 2220including using a stylus 2260. Wireless touch screen remote applicationinterface features include for example where a user can turn features onand off using touch screen remote monitoring features 2230 of oneembodiment.

Universal Room Ventilation Register Adapter:

FIG. 23 shows for illustrative purposes only an example of a universalroom ventilation register adapter assembly of one embodiment. FIG. 23shows front and back view of two different sized room registers. Thesmaller room ventilation register 2300 is coupled to the wall mountedwireless adjustable ventilation system register 900 using one embodimentof a universal room ventilation register adapter 2320. The larger roomventilation register 2330 is coupled to the wall mounted wirelessadjustable ventilation system register 900 using another embodiment of auniversal room ventilation register adapter 2350. An embodiment of theuniversal room ventilation register adapter allows the wall mountedwireless adjustable ventilation system register 900 to be coupled to allroom ventilation register sizes of one embodiment.

FIG. 24 shows for illustrative purposes only an example of a universalroom ventilation register adapter of one embodiment. FIG. 24 shows theuniversal room ventilation register adapter 2320 is shown including awall mounted wireless adjustable ventilation system register mountingring 2400. The wall mounted wireless adjustable ventilation systemregister mounting ring 2400 is sized to couple with the housing 905 ofFIG. 9C. A smaller register plate 2410 is attached to the wall mountedwireless adjustable ventilation system register mounting ring 2400. Foruses with a larger register a larger register plate 2410 is attached tothe wall mounted wireless adjustable ventilation system registermounting ring 2400. Each register plate is sized to fit any register andinclude matching screw holes and lever slot. The register plates can bemanufactured in industry standard register sizes and in custom sizes tofit custom registers. The register plate can be made of for examplesheet metal and attached to the wall mounted wireless adjustableventilation system register mounting ring 2400 using for example weldedjoints, an adhesive, molded to the mounting ring 2400, and screwattachment of one embodiment.

GPS Proximity Activation:

FIG. 25 shows for illustrative purposes only an example of GPS proximityautomated wireless room temperature control activation of oneembodiment. FIG. 25 shows a user traveling with mobile communicationdevice 2500. A user mobile communication device 2510 is equipped with aGPS locator element 2514 and a mobile communication device wirelessmonitor and temperature control application 2518. The GPS locatorelement 2514 is transmitting a user GPS location through the mobilecommunication device wireless monitor and temperature controlapplication 2520. The user is traveling to return to the user home base.The user home base has at least one room temperature control thermostat100 installed that is equipped for receiving user GPS location 2530coordinates. A computer processor element 2540 coupled to the at leastone room temperature control thermostat 100 and calculates a usercurrent proximity to home base 2550. The at least one room temperaturecontrol thermostat 100 activates at least one wireless room temperaturecontrol system when user is within a user predetermined proximity to theuser home base destination 2560. The at least one wireless roomtemperature control system 2570 operates so that a home base temperatureis regulated to a preset temperature by the time user arrives at theuser home base location 2580 of one embodiment.

Gateway Server and Device:

FIG. 26 shows a block diagram of an overview flow chart of a wirelessroom temperature universal control system gateway server and device ofone embodiment. FIG. 26 shows a wireless room temperature universalcontrol system device 2600 configured to include a mobile device managergateway device 2610 and an integrated wireless digital internetinterface device 2620. The wireless room temperature universal controlsystem device 2600 communicates with a wireless room temperatureuniversal control system server 2630 using the mobile device managergateway device 2610 and an integrated wireless digital internetinterface device 2620. The wireless room temperature universal controlsystem device 2600 includes a wireless room temperature universalcontrol system device digital processor 2602. The wireless roomtemperature universal control system device digital processor 2602includes a unique identification and authorization code 2604 compiledinto the wireless room temperature universal control system devicedigital processor 2602 code. The compiled unique identification andauthorization code 2604 is embedded into the wireless room temperatureuniversal control system device digital processor 2602 code and cannotbe hacked or obtained through a query. The unique identification andauthorization code 2604 can be obtained by a user upon purchasing thewireless room temperature universal control system device. Upon purchasethe unique identification and authorization code 2604 is activated onthe wireless room temperature universal control system server 2630. Thewireless room temperature universal control system server 2630automatically transmits the unique identification and authorization code2604 to the mobile device manager gateway device 2610 where it isrecorded in a processor within the mobile device manager gateway device2610 and encoded with a security encryption automatically generated bythe wireless room temperature universal control system server 2630 usinga security encryption apparatus 2632. The user can then using a mobilecommunication device 2500 can communicate with the wireless roomtemperature universal control system server 2630 using the internet anddownload the mobile communication device wireless monitor andtemperature control application 2518 of FIG. 25. After downloading themobile communication device wireless monitor and temperature controlapplication 2518 of FIG. 25 the user can login using the uniqueidentification and authorization code 2604. Upon a successful login thewireless room temperature universal control system server 2630 cantransmit the encrypted unique identification and authorization code 2604to the mobile communication device wireless monitor and temperaturecontrol application 2518 of FIG. 25.

Periodically the wireless room temperature universal control systemserver 2630 automatically changes the security encrypted uniqueidentification and authorization code 2604 using the security encryptionapparatus 2632 and transmits any changes in the security encryption tothe mobile communication device wireless monitor and temperature controlapplication 2518 of FIG. 25 and mobile device manager gateway device2610. The wireless room temperature universal control system server 2630also transmits to the wireless room temperature universal control systemdevice 2600 the key for deciphering the encrypted unique identificationand authorization code 2604 for comparing to the embedded compiledunique identification and authorization code 2604 is embedded into thewireless room temperature universal control system device digitalprocessor 2602. The changing of the security encryption periodically,for example from every 2-10 seconds to once every day makes it difficultfor other to gain access to a user's control access to the wireless roomtemperature universal control system device 2600 and other third partycontrol devices 2640.

A user may use the user traveling with mobile communication device 2500from any location with accessible internet service to connect to thewireless room temperature universal control system server 2630 and tocommunicate with the mobile device manager gateway device 2610 to accessand operate control devices at a user home, office or other location.The mobile device manager gateway device 2610 can communicateinstructions from the user traveling with mobile communication device2500 with the mobile communication device wireless monitor andtemperature control application 2518 to for example the mobilecommunication device wireless monitor and temperature controlapplication interface 180. The communicated instructions may includechanging a temperature setting to the at least one room temperaturecontrol thermostat 100. The communicated instructions may includeclosing drapes in the user living room using the automated windowcovering opening and closing device 170. The mobile device managergateway device 2610 can communicate with other third party controldevices 2640 to enable the user to operate other controlled systems forexample home automation devices for example garage door openers andlandscape irrigation systems while being any distance from the locationof one embodiment.

The foregoing has described the principles, embodiments and modes ofoperation of the present invention. However, the invention should not beconstrued as being limited to the particular embodiments discussed. Theabove described embodiments should be regarded as illustrative ratherthan restrictive, and it should be appreciated that variations may bemade in those embodiments by workers skilled in the art withoutdeparting from the scope of the present invention as defined by thefollowing claims.

What is claimed is:
 1. A method, comprising: integrating a wireless roomtemperature universal control system device with feature devicesincluding a feature device for setting automated temperature settings ona room temperature control thermostat device in a room; operating theroom temperature control thermostat device with at least one automatedroom occupancy detector feature device for determining occupancy in theroom, wherein the at least one automated room occupancy detector featuredevice includes detecting body heat, detecting and receiving andtransmitting sounds, detecting motion and receiving and transmittinglive and recorded video signal; using a mobile device wireless monitorand temperature control application interface device to remotely managethe operations of the wireless room temperature universal control systemdevice and interactively communicating with room occupants;communicating through a wireless room temperature universal controlsystem server and a mobile device manager gateway device to activate andoperate the wireless room temperature universal control system deviceand other third party control devices; and operating the mobile devicewireless monitor and temperature control application interface deviceincludes transmitting an encrypted unique identification andauthorization code using a user mobile communication device, thewireless room temperature universal control system server and the mobiledevice manager gateway device to a wireless room temperature universalcontrol system for operating the wireless room temperature universalcontrol system device features and other third party control devices. 2.The method of claim 1, wherein setting automated temperature settings ona room temperature control thermostat device in a room includesoperating a room temperature control thermostat device, settingautomated temperature settings, operating an automated temperaturemonitoring device using a wireless digital thermostat device andactivating a predetermined temperature regulation when a user is withina predetermined GPS proximity to a user home base destination, operatingan automated mold detector, an automated humidity detector, at least oneuniversal room ventilation register adapter and automated windowcovering opening and closing device.
 3. The method of claim 1, whereinsetting automated temperature settings on a room temperature controlthermostat device in a room includes setting a user predeterminedtemperature when a room is unoccupied, setting a user predeterminedtemperature when a room is occupied, setting a user set time to begin apredetermined temperature regulation, and transmitting user alerts forroom temperature and occupancy conditions.
 4. The method of claim 1,wherein operating at least one automated room occupancy detector featuredevice for determining occupancy in the room includes detecting bodyheat using a heat detector, detecting and receiving sounds using amicrophone sound detector and transmitting sounds using a speaker,detecting motion using a motion detector, and receiving live videosignals using a video camera and transmitting live and recorded videosignals using a digital display screen.
 5. The method of claim 1,wherein using a mobile device wireless monitor and temperature controlapplication interface is activated using a mobile communication devicewireless monitor and temperature control application downloaded into auser mobile communication device, a wireless room temperature universalcontrol system server and a mobile device manager gateway device.
 6. Themethod of claim 1, wherein using a mobile device wireless monitor andtemperature control application interface device includes activatingupon receiving a signal from the wireless room temperature universalcontrol system server and a mobile device manager gateway deviceincluding a unique wireless room temperature universal control systemserver identification and authorization code embedded into a digitalprocessor in a wireless room temperature universal control systemdevice.
 7. The method of claim 1, wherein communicating through awireless room temperature universal control system server and a mobiledevice manager gateway device includes using a user mobile communicationdevice with a mobile communication device wireless monitor andtemperature control application installed.
 8. The method of claim 1,wherein communicating through a wireless room temperature universalcontrol system server includes a user logging into the wireless roomtemperature universal control system server using a uniqueidentification and authorization code.
 9. The method of claim 1, whereincommunicating through a wireless room temperature universal controlsystem server includes the wireless room temperature universal controlsystem server automatically encrypting and transmitting a uniqueidentification and authorization code to a mobile communication devicewireless monitor and temperature control application and a mobile devicemanager gateway device and recording the encrypted unique identificationand authorization code in a mobile device manager gateway deviceprocessor.
 10. The method of claim 1, wherein communicating through awireless room temperature universal control system server includesperiodically changing and transmitting an encrypted uniqueidentification and authorization code to a mobile communication devicewireless monitor and temperature control application and a mobile devicemanager gateway device and transmitting to a wireless room temperatureuniversal control system device a key for deciphering the encryptedunique identification and authorization code.
 11. An apparatus,comprising: a wireless room temperature universal control system devicewith integrated feature devices including a feature device for settingautomated temperature settings on a room temperature control thermostatdevice in a room; at least one automated room occupancy detector featuredevice in the room temperature control thermostat device for determiningoccupancy in the room, wherein the at least one automated room occupancydetector feature device includes a heat detector for detecting bodyheat, a microphone detector for detecting and receiving sounds, aspeaker for transmitting sounds, a motion detector for detecting motion,a video camera for receiving live video signals and a digital displayscreen for transmitting live and recorded video signals; a mobile devicewireless monitor and temperature control application interface device inthe wireless room temperature universal control system device forremotely managing operations of the wireless room temperature universalcontrol system device and interactively communicating with roomoccupants; a wireless room temperature universal control system serverand a mobile device manager gateway device for remotely communicatingactivation and operation instructions to the wireless room temperatureuniversal control system device and other third party control devices;and an encrypted unique identification and authorization code forauthorizing remote activation and operations of the mobile devicewireless monitor and temperature control application interface deviceincluding transmitting authorized activation and operation instructionsusing a user mobile communication device, the wireless room temperatureuniversal control system server and the mobile device manager gatewaydevice to a wireless room temperature universal control system devicefor operating the wireless room temperature universal control systemfeature devices and other third party control devices.
 12. The apparatusof claim 11, wherein the wireless room temperature universal controlsystem device is configured to include setting automated temperaturesettings on a room temperature control thermostat device in a room andoperating an automated temperature monitor device using a wirelessdigital thermostat and activating a predetermined temperature regulationwhen a user is within a predetermined proximity to a user home basedestination, an automated mold detector for detecting mold in a room, anautomated humidity detector for determining the humidity in a room, atleast one universal room ventilation register adapter for regulating airflow into a room, and an automated window covering opening and closingdevice for regulating outside temperature and solar thermal transmissioninto a room.
 13. The apparatus of claim 11, wherein the wireless roomtemperature universal control system device is configured to includesetting automated temperature settings on a room temperature controlthermostat in a room including setting a user predetermined temperaturewhen a room is unoccupied, setting a user predetermined temperature whena room is occupied, setting a user set time to begin a predeterminedtemperature regulation, and transmitting user alerts for roomtemperature and occupancy conditions.
 14. The apparatus of claim 11,wherein the at least one automated room occupancy detector featuredevice is configured for determining occupancy in a room includingdetecting body heat using a heat detector, detecting, receiving soundsusing a microphone sound detector, transmitting voice and sounds to aroom using a speaker, detecting motion in a room using a motiondetector, and receiving live video signal images in a room using a videocamera and transmitting live and recorded video signal images onto adigital display screen in a room.
 15. The apparatus of claim 11, whereinthe wireless room temperature universal control system device isconfigured to include a digital processor for embedding a uniquewireless room temperature universal control system server identificationand authorization code and recording a key for deciphering the encryptedunique identification and authorization code.
 16. An apparatus,comprising: a wireless room temperature universal control system devicefor controlling operations of coupled feature devices; a roomtemperature control thermostat device coupled to the wireless roomtemperature universal control system device for regulating temperaturesettings; an automated temperature monitoring device coupled to thewireless room temperature universal control system device fordetermining temperatures in a room; an automated mold detector coupledto the wireless room temperature universal control system device fordetermining whether mold is present in a room; an automated humiditydetector coupled to the wireless room temperature universal controlsystem device for determining humidity levels in a room; an automatedwindow covering opening and closing device coupled to the wireless roomtemperature universal control system device for regulating outsidetemperature and solar thermal transmission into a room; at least oneautomated room occupancy detector coupled to the wireless roomtemperature universal control system device for determining whether aroom is occupied or unoccupied; at least one universal room ventilationregister adapter coupled to the wireless room temperature universalcontrol system device for regulating air flow into a room; a mobiledevice wireless monitor and temperature control application interfacedevice coupled to the wireless room temperature universal control systemdevice for remotely controlling operations of wireless room temperatureuniversal control system device feature devices and other third partycontrol devices; a mobile communication device wireless monitor andtemperature control application coupled to the mobile device wirelessmonitor and temperature control application interface device fortransmitting operation instructions to the wireless room temperatureuniversal control system device; a GPS locator element coupled to themobile communication device wireless monitor and temperature controlapplication for determining a user proximity to a home base destinationlocation; a wireless room temperature universal control system servercoupled to the mobile communication device wireless monitor andtemperature control application, a mobile device manager gateway deviceand the wireless room temperature universal control system device forupdating authorized user access; a mobile device manager gateway devicecoupled to the mobile communication device wireless monitor andtemperature control application, a mobile device manager gateway device,the wireless room temperature universal control system device, wirelessroom temperature universal control system device feature devices andother third party control devices for transmitting authorized useraccess permissions; a digital processor coupled to the wireless roomtemperature universal control system device for recording data,performing calculations and processing request transmissions forauthorized user access permissions; a unique wireless room temperatureuniversal control system server identification and authorization codecoupled to the wireless room temperature universal control system devicefor determining authentication of authorized user access permissionrequest; a wireless digital internet interface device coupled to thewireless room temperature universal control system device and mobiledevice wireless monitor and temperature control application interfacedevice for sending and receiving internet and WIFI communications; and asecurity encryption apparatus coupled to the wireless room temperatureuniversal control system server for periodically encrypting and changingencryptions of the unique wireless room temperature universal controlsystem server identification and authorization code.
 17. The apparatusof claim 16, wherein the at least one automated room occupancy detectoris configured for determining occupancy in a room and is configured toinclude a heat detector for detecting body heat, a microphone sounddetector for detecting, receiving sounds, a speaker for transmittingvoice and sounds to a room, a motion detector for detecting motion, avideo camera for receiving live video signals and a digital displayscreen for transmitting live and recorded video signals.
 18. Theapparatus of claim 16, wherein the wireless room temperature universalcontrol system device is configured for setting automated temperaturesettings on a room temperature control thermostat in a room includingsetting a user predetermined temperature when a room is unoccupied,setting a user predetermined temperature when a room is occupied,setting a user set time to begin a predetermined temperature regulation,and transmitting user alerts for room temperature and occupancyconditions and activating a predetermined temperature regulation when auser is within a predetermined proximity to a user home basedestination.
 19. The apparatus of claim 16, wherein the wireless roomtemperature universal control system server is configured forperiodically changing and transmitting an encrypted uniqueidentification and authorization code to a mobile communication devicewireless monitor and temperature control application and a mobile devicemanager gateway device and transmitting to a wireless room temperatureuniversal control system device a key for deciphering the encryptedunique identification and authorization code.
 20. The apparatus of claim16, wherein the mobile communication device wireless monitor andtemperature control application is configured for transmitting theunique wireless room temperature universal control system serveridentification and authorization code to the mobile device wirelessmonitor and temperature control application interface and is configuredfor a user to remotely manage the operations of the wireless roomtemperature universal control system device and interactivelycommunicating with room occupants.